#####################################################################
#                                                                   #
#  THIS IS A SOURCE CODE FILE FROM A PROGRAM TO INTERACT WITH THE   #
# LBRY PROTOCOL ( lbry.com ). IT WILL USE THE LBRY SDK ( lbrynet )  #
# FROM THEIR REPOSITORY ( https://github.com/lbryio/lbry-sdk )      #
# WHICH I GONNA PRESENT TO YOU AS A BINARY. SINCE I DID NOT DEVELOP #
# IT AND I'M LAZY TO INTEGRATE IN A MORE SMART WAY. THE SOURCE CODE #
# OF THE SDK IS AVAILABLE IN THE REPOSITORY MENTIONED ABOVE.        #
#                                                                   #
#      ALL THE CODE IN THIS REPOSITORY INCLUDING THIS FILE IS       #
# (C) J.Y.Amihud and Other Contributors 2021. EXCEPT THE LBRY SDK.  #
# YOU CAN USE THIS FILE AND ANY OTHER FILE IN THIS REPOSITORY UNDER #
# THE TERMS OF GNU GENERAL PUBLIC LICENSE VERSION 3 OR ANY LATER    #
# VERSION. TO FIND THE FULL TEXT OF THE LICENSE GO TO THE GNU.ORG   #
# WEBSITE AT ( https://www.gnu.org/licenses/gpl-3.0.html ).         #
#                                                                   #
# THE LBRY SDK IS UNFORTUNATELY UNDER THE MIT LICENSE. IF YOU ARE   #
# NOT INTENDING TO USE MY CODE AND JUST THE SDK. YOU CAN FIND IT ON #
# THEIR OFFICIAL REPOSITORY ABOVE. THEIR LICENSE CHOICE DOES NOT    #
# SPREAD ONTO THIS PROJECT. DON'T GET A FALSE ASSUMPTION THAT SINCE #
# THEY USE A PUSH-OVER LICENSE, I GONNA DO THE SAME. I'M NOT.       #
#                                                                   #
# THE LICENSE CHOSEN FOR THIS PROJECT WILL PROTECT THE 4 ESSENTIAL  #
# FREEDOMS OF THE USER FURTHER, BY NOT ALLOWING ANY WHO TO CHANGE   #
# THE LICENSE AT WILL. SO NO PROPRIETARY SOFTWARE DEVELOPER COULD   #
# TAKE THIS CODE AND MAKE THEIR USER-SUBJUGATING SOFTWARE FROM IT.  #
#                                                                   #
#####################################################################

# This file is a set of variables used by different files. It's needed
# so I will not need to hard code the values each time. Stuff like
# basic translations of the LBRY data into human language. And a more
# complex functions like translating size in bytes into something more
# readable.


# Colors are used to make the 
clr = {
    "norm":"\033[00m", # Reset to normal
    "bold":"\033[01m", # Bold Text
    "ital":"\033[03m", # Italic Text
    "undr":"\033[04m", # Underlined
    "blnk":"\033[05m", # Blinking
    
    # Text
    "tdbl":"\033[30m", # Dark Black
    "tdrd":"\033[31m", # Dark Red
    "tdgr":"\033[32m", # Dark Green
    "tdyl":"\033[33m", # Dark Yellow
    "tdbu":"\033[34m", # Dark Blue
    "tdma":"\033[35m", # Dark Magenta
    "tdcy":"\033[36m", # Dark Cyan
    "tdwh":"\033[37m", # Dark White
    
    "tbbl":"\033[90m", # Bright Black
    "tbrd":"\033[91m", # Bright Red
    "tbgr":"\033[92m", # Bright Green
    "tbyl":"\033[93m", # Bright Yellow
    "tbbu":"\033[94m", # Bright Blue
    "tbma":"\033[95m", # Bright Magenta
    "tbcy":"\033[96m", # Bright Cyan
    "tbwh":"\033[97m", # Bright White
    # Background
    "bdbl":"\033[40m", # Dark Black
    "bdrd":"\033[41m", # Dark Red
    "bdgr":"\033[42m", # Dark Green
    "bdyl":"\033[43m", # Dark Yellow
    "bdbu":"\033[44m", # Dark Blue
    "bdma":"\033[45m", # Dark Magenta
    "bdcy":"\033[46m", # Dark Cyan
    "bdwh":"\033[47m", # Dark White
    
    "bbbl":"\033[100m", # Bright Black
    "bbrd":"\033[101m", # Bright Red
    "bbgr":"\033[102m", # Bright Green
    "bbyl":"\033[103m", # Bright Yellow
    "bbbu":"\033[104m", # Bright Blue
    "bbma":"\033[105m", # Bright Magenta
    "bbcy":"\033[106m", # Bright Cyan
    "bbwh":"\033[108m"  # Bright White
}

# A function that insures a specific width of the printed part
def wdth(x, n):

    # Just in case...
    x = str(x)

    if len(x) < n:
        x = (" "*(n-len(x)))+x
    elif len(x) > n:
        if n > 10:
            x = x[:n-3]+"..."
        else:
            x = x[:n]
    
    return x

# A dictionary for translations of things from the SDK into
# readable thing

what = {
    "stream":"FILE",
    "repost":"SHARED",
    "channel": "CHANNEL",
    "collection": "PLAYLIST"
}

# This function will take a list and present in a pretty
# way.

def tgz(x):

    # Just in case
    if type(x) != list:
        x = x.split()

    y = ""
    for i in x:
        y = y + i + ", "

    return y[:-2]

# This function will convert bites into readable data making sense

def csize(x):

    x = float(x)
    
    l = ["B","KB", "MB", "GB", "TB"]

    for i in range(5):
        if x > 1024:
            x = x / 1024
        else:
            return str(round(x, 2))+" "+l[i]
    return str(round(x, 2))+" "+l[i]
